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mariadb/storage/myisam/mi_open.c
unknown fb84f573ad Moved a lot of old bug fixes and safe cleanups from Maria 5.1 tree to 5.1 
- Reserver namespace and place in frm for TABLE_CHECKSUM and PAGE_CHECKSUM create options
- Added syncing of directory when creating .frm files
- Portability fixes
- Added missing cast that could cause bugs
- Code cleanups
- Made some bit functions inline
- Moved things out of myisam.h to my_handler.h to make them more accessable
- Renamed some myisam variables and defines to make them more globaly usable (as they are used outside of MyISAM)
- Fixed bugs in error conditions
- Use compiler time asserts instead of run time
- Fixed indentation
HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_PREPARE_FOR_DROP as the old name was wrong
(Added a define for old value to ensure we don't break any old code)
Added HA_EXTRA_PREPARE_FOR_RENAME as a signal for rename (before we used a DROP signal which is wrong)
- Initialize error messages early to get better errors when mysqld or an engine fails to start
- Fix windows bug that query_performance_frequency was not initialized if registry code failed
- thread_stack -> my_thread_stack_size


BitKeeper/etc/ignore:
  added libmysqld/scheduler.cc libmysqld/sql_connect.cc libmysqld/sql_tablespace.cc
include/Makefile.am:
  Added my_bit.h
include/m_string.h:
  Added bzero_if_purify() to simplify code
include/my_base.h:
  Reserve options for the future
  Added HA_OPTION_NULL_FIELDS, HA_OPTION_PAGE_CHECKSUM, HA_CREATE_PAGE_CHECKSUM
  Added new error message HA_ERR_NEW_FILE
  Added optional new row type BLOCK_RECORD
  Renamed HA_EXTRA_PREPARE_FOR_DELETE to HA_EXTRA_PREPARE_FOR_DROP
  Added HA_EXTRA_PREARE_FOR_RENAME to inform handler we will do a rename
  (Added define to make things compatible until 6.0)
  Moved invalidator_by_filename form myisam.h
include/my_dbug.h:
  Poirtablity fix
include/my_global.h:
  Added helper macros STATIC_INLINE and MY_ERRPTR
  Added NEED_EXPLICIT_SYNC_DIR
include/my_handler.h:
  Added missing casts
  Moved some constants and macros out from myisam.h to make these generally available
  Renamed mi_compare_text() to ha_compare_text() as this function is not myisam specific
  Renamed mi_portable_sizeof_char_ptr to portable_sizeof_char_ptr
  Added registering of handler messages for better error reporting during startup
include/my_sys.h:
  Added my_sync_dir() and my_sync_dir_by_file()
  More comments
  Some indentation fixes
  Moved bit functions to my_bit.h
  Added prototype for crc32()
include/myisam.h:
  Moved things from here to my_handler.h to make them more accessable
libmysql/Makefile.shared:
  Added my_sync
mysys/array.c:
  Fixed indentation and spelling errors
  Split set_dynamic() to two functions
  Added allocate_dynamic() as a new visiable function
  (no new code, only refactoring)
mysys/mf_iocache.c:
  More DBUG
mysys/mf_keycache.c:
  More explicite ASSERT
  Removed some casts
  Fixed indentation
mysys/mf_tempfile.c:
  Fixed bug with possible dangling file descriptor
mysys/my_atomic.c:
  Use compile time asserts instead of run time
mysys/my_bit.c:
  Make most bit functions inline
mysys/my_bitmap.c:
  Added my_bit.h
mysys/my_compress.c:
  Fixed indentation
mysys/my_create.c:
  Added my_sync_by_dir()
mysys/my_delete.c:
  Added my_sync_by_dir()
mysys/my_error.c:
  init_glob_errs() is now done in my_init()
mysys/my_handler.c:
  mi_compare_text() -> ha_compare_text() as this is not MyISAM specific
  Added functions to initialize handler error messages
  Fixed indentation
  More clear usage of include files
mysys/my_init.c:
  Added my_thread_stack_size to be used by other programs
  Ensure that global error messages are always initialized
  Fix windows bug that query_performance_frequency was not initialized if registry code failed
mysys/my_open.c:
  More comments
  Removed duplicate code
mysys/my_pread.c:
  Ensure that my_errno is set even if errno is 0
mysys/my_realloc.c:
  Added comment
mysys/my_rename.c:
  Added syncing of directories
mysys/my_symlink.c:
  Added my_sync_by_dir()
mysys/my_sync.c:
  Added my_sync_dir()
   
  On recent Mac OS X, fcntl(F_FULLFSYNC) is recommended over fsync()
  (see "man fsync" on Mac OS X 10.3).
  my_sync_dir(): to sync a directory after a file creation/deletion/
  renaming; can be called directly or via MY_SYNC_DIR in my_create/
  my_delete/my_rename(). No-op except on Linux (see "man fsync" on Linux).
  my_sync_dir_from_file(): same as above, just more practical when the
  caller has a file name but no directory name ready.
  Should the #warning even be a #error? I mean do we want to release
  binaries which don't guarantee any durability?
mysys/safemalloc.c:
  Added sf_malloc_report_allocated() (Debugging aid)
sql/gen_lex_hash.cc:
  Remove inline for big function
sql/ha_partition.cc:
  HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_PREPARE_FOR_DROP
  prepare_for_delete -> prepare_for_rename() as this is the the time this function is called
sql/ha_partition.h:
  prepare_for_delete -> prepare_for_rename() as this is the the time this function is called
sql/handler.cc:
  ha_init_errors() is now called at startup before plugins
  This allows us to get better error messages
sql/handler.h:
  Reserve enum value for Maria
  Add future proof enum for page checksums
sql/item_func.cc:
  Include my_bit.h
sql/lex.h:
  Added future proof CREATE table options
sql/log.cc:
  Added comment
sql/mysql_priv.h:
  thread_stack moved to mysys
sql/mysqld.cc:
  thread_stack moved to mysys
  thread_stack -> my_thread_stack_size
  Initialize myisam key caches before plugins starts
  Initialize error to allow storage engine to give better error messages if init failes.
  Fixed indentation
  Group all MyISAM options together
  Added new status variable 'Opened_table_definitions' to allow one to monitor if table definition cache is too small
  Clarified some option help messages
sql/opt_range.cc:
  Removed wrong usage of SAFE_MODE (this disabled key usage for UPDATES, which was never the intention)
  Removed print if total cost in a place where it didn't have any usable value
sql/set_var.cc:
  thread_stack -> my_thread_stack
sql/sql_class.cc:
  Intialize transaction object properly
sql/sql_parse.cc:
  thread_stack -> my_thread_stack
sql/sql_select.cc:
  Include my_bit.h
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
sql/sql_show.cc:
  Simplify handling of ha_choice variables
  Added future safe PAGE_CHECKSUM option
  Addid missing 'transactional=#' in information schema
sql/sql_table.cc:
  HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_FORCE_REOPEN when doing reopen
  HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_PREPARE_FOR_RENAME when doing rename
  Removed not needed initialization
sql/sql_test.cc:
  thread_stack -> my_thread_stack
sql/sql_yacc.yy:
  Simplify handling of ha_choice variables
  Added future proof create table options TABLE_CHECKSUM=# & PAGE_CHECKSUM=#
sql/table.cc:
  Save page_checksum in .frm
sql/table.h:
  Added variable to hold create table option PAGE_CHECKSUM
sql/unireg.cc:
  Added syncing of directories
storage/myisam/ft_boolean_search.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ft_eval.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ft_nlq_search.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ft_parser.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ft_stopwords.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ft_test1.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/ft_update.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/ha_myisam.cc:
  Include my_bit.h
storage/myisam/mi_check.c:
  MI_MAX_POSSIBLE_KEY_BUFF -> HA_MAX_POSSIBLE_KEY_BUFF
  mi_compare_text() -> ha_compare_text()
  Added BLOCK_RECORD to avoid compiler warnings
storage/myisam/mi_checksum.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_create.c:
  MI_MAX_POSSIBLE_KEY -> HA_MAX_POSSIBLE_KEY
  MI_MAX_KEY_BLOCK_SIZE -> HA_MAX_KEY_BLOCK_SIZE
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_dynrec.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_extra.c:
  HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_PREPARE_FOR_DROP
storage/myisam/mi_open.c:
  MI_MAX_POSSIBLE_KEY -> HA_MAX_POSSIBLE_KEY
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_packrec.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_range.c:
  mi_compare_text -> ha_compare_text
storage/myisam/mi_test1.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_test2.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/mi_unique.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/mi_write.c:
  mi_compare_text() -> ha_compare_text()
storage/myisam/myisamchk.c:
  Include my_bit.h
storage/myisam/myisamdef.h:
  Moved store_key_length_inc to handler.h
storage/myisam/myisampack.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisam/sp_test.c:
  mi_portable_sizeof_char_ptr -> portable_sizeof_char_ptr
storage/myisammrg/ha_myisammrg.cc:
  HA_EXTRA_PREPARE_FOR_DELETE -> HA_EXTRA_PREPARE_FOR_DROP
include/my_bit.h:
  New BitKeeper file ``include/my_bit.h''
2007-10-11 18:07:40 +03:00

1333 lines
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/* Copyright (C) 2000-2006 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/* open a isam-database */
#include "fulltext.h"
#include "sp_defs.h"
#include "rt_index.h"
#include <m_ctype.h>
#if defined(MSDOS) || defined(__WIN__)
#ifdef __WIN__
#include <fcntl.h>
#else
#include <process.h> /* Prototype for getpid */
#endif
#endif
#ifdef VMS
#include "static.c"
#endif
static void setup_key_functions(MI_KEYDEF *keyinfo);
#define get_next_element(to,pos,size) { memcpy((char*) to,pos,(size_t) size); \
pos+=size;}
#define disk_pos_assert(pos, end_pos) \
if (pos > end_pos) \
{ \
my_errno=HA_ERR_CRASHED; \
goto err; \
}
/******************************************************************************
** Return the shared struct if the table is already open.
** In MySQL the server will handle version issues.
******************************************************************************/
MI_INFO *test_if_reopen(char *filename)
{
LIST *pos;
for (pos=myisam_open_list ; pos ; pos=pos->next)
{
MI_INFO *info=(MI_INFO*) pos->data;
MYISAM_SHARE *share=info->s;
if (!strcmp(share->unique_file_name,filename) && share->last_version)
return info;
}
return 0;
}
/******************************************************************************
open a MyISAM database.
See my_base.h for the handle_locking argument
if handle_locking and HA_OPEN_ABORT_IF_CRASHED then abort if the table
is marked crashed or if we are not using locking and the table doesn't
have an open count of 0.
******************************************************************************/
MI_INFO *mi_open(const char *name, int mode, uint open_flags)
{
int lock_error,kfile,open_mode,save_errno,have_rtree=0;
uint i,j,len,errpos,head_length,base_pos,offset,info_length,keys,
key_parts,unique_key_parts,fulltext_keys,uniques;
char name_buff[FN_REFLEN], org_name[FN_REFLEN], index_name[FN_REFLEN],
data_name[FN_REFLEN];
uchar *disk_cache, *disk_pos, *end_pos;
MI_INFO info,*m_info,*old_info;
MYISAM_SHARE share_buff,*share;
ulong rec_per_key_part[HA_MAX_POSSIBLE_KEY*MI_MAX_KEY_SEG];
my_off_t key_root[HA_MAX_POSSIBLE_KEY],key_del[MI_MAX_KEY_BLOCK_SIZE];
ulonglong max_key_file_length, max_data_file_length;
DBUG_ENTER("mi_open");
LINT_INIT(m_info);
kfile= -1;
lock_error=1;
errpos=0;
head_length=sizeof(share_buff.state.header);
bzero((uchar*) &info,sizeof(info));
my_realpath(name_buff, fn_format(org_name,name,"",MI_NAME_IEXT,
MY_UNPACK_FILENAME),MYF(0));
pthread_mutex_lock(&THR_LOCK_myisam);
if (!(old_info=test_if_reopen(name_buff)))
{
share= &share_buff;
bzero((uchar*) &share_buff,sizeof(share_buff));
share_buff.state.rec_per_key_part=rec_per_key_part;
share_buff.state.key_root=key_root;
share_buff.state.key_del=key_del;
share_buff.key_cache= multi_key_cache_search((uchar*) name_buff,
strlen(name_buff));
DBUG_EXECUTE_IF("myisam_pretend_crashed_table_on_open",
if (strstr(name, "/t1"))
{
my_errno= HA_ERR_CRASHED;
goto err;
});
if ((kfile=my_open(name_buff,(open_mode=O_RDWR) | O_SHARE,MYF(0))) < 0)
{
if ((errno != EROFS && errno != EACCES) ||
mode != O_RDONLY ||
(kfile=my_open(name_buff,(open_mode=O_RDONLY) | O_SHARE,MYF(0))) < 0)
goto err;
}
share->mode=open_mode;
errpos=1;
if (my_read(kfile, share->state.header.file_version, head_length,
MYF(MY_NABP)))
{
my_errno= HA_ERR_NOT_A_TABLE;
goto err;
}
if (memcmp((uchar*) share->state.header.file_version,
(uchar*) myisam_file_magic, 4))
{
DBUG_PRINT("error",("Wrong header in %s",name_buff));
DBUG_DUMP("error_dump",(char*) share->state.header.file_version,
head_length);
my_errno=HA_ERR_NOT_A_TABLE;
goto err;
}
share->options= mi_uint2korr(share->state.header.options);
if (share->options &
~(HA_OPTION_PACK_RECORD | HA_OPTION_PACK_KEYS |
HA_OPTION_COMPRESS_RECORD | HA_OPTION_READ_ONLY_DATA |
HA_OPTION_TEMP_COMPRESS_RECORD | HA_OPTION_CHECKSUM |
HA_OPTION_TMP_TABLE | HA_OPTION_DELAY_KEY_WRITE |
HA_OPTION_RELIES_ON_SQL_LAYER))
{
DBUG_PRINT("error",("wrong options: 0x%lx", share->options));
my_errno=HA_ERR_OLD_FILE;
goto err;
}
if ((share->options & HA_OPTION_RELIES_ON_SQL_LAYER) &&
! (open_flags & HA_OPEN_FROM_SQL_LAYER))
{
DBUG_PRINT("error", ("table cannot be openned from non-sql layer"));
my_errno= HA_ERR_UNSUPPORTED;
goto err;
}
/* Don't call realpath() if the name can't be a link */
if (!strcmp(name_buff, org_name) ||
my_readlink(index_name, org_name, MYF(0)) == -1)
(void) strmov(index_name, org_name);
*strrchr(org_name, '.')= '\0';
(void) fn_format(data_name,org_name,"",MI_NAME_DEXT,
MY_APPEND_EXT|MY_UNPACK_FILENAME|MY_RESOLVE_SYMLINKS);
info_length=mi_uint2korr(share->state.header.header_length);
base_pos=mi_uint2korr(share->state.header.base_pos);
if (!(disk_cache= (uchar*) my_alloca(info_length+128)))
{
my_errno=ENOMEM;
goto err;
}
end_pos=disk_cache+info_length;
errpos=2;
VOID(my_seek(kfile,0L,MY_SEEK_SET,MYF(0)));
if (!(open_flags & HA_OPEN_TMP_TABLE))
{
if ((lock_error=my_lock(kfile,F_RDLCK,0L,F_TO_EOF,
MYF(open_flags & HA_OPEN_WAIT_IF_LOCKED ?
0 : MY_DONT_WAIT))) &&
!(open_flags & HA_OPEN_IGNORE_IF_LOCKED))
goto err;
}
errpos=3;
if (my_read(kfile,disk_cache,info_length,MYF(MY_NABP)))
{
my_errno=HA_ERR_CRASHED;
goto err;
}
len=mi_uint2korr(share->state.header.state_info_length);
keys= (uint) share->state.header.keys;
uniques= (uint) share->state.header.uniques;
fulltext_keys= (uint) share->state.header.fulltext_keys;
key_parts= mi_uint2korr(share->state.header.key_parts);
unique_key_parts= mi_uint2korr(share->state.header.unique_key_parts);
if (len != MI_STATE_INFO_SIZE)
{
DBUG_PRINT("warning",
("saved_state_info_length: %d state_info_length: %d",
len,MI_STATE_INFO_SIZE));
}
share->state_diff_length=len-MI_STATE_INFO_SIZE;
mi_state_info_read(disk_cache, &share->state);
len= mi_uint2korr(share->state.header.base_info_length);
if (len != MI_BASE_INFO_SIZE)
{
DBUG_PRINT("warning",("saved_base_info_length: %d base_info_length: %d",
len,MI_BASE_INFO_SIZE));
}
disk_pos= my_n_base_info_read(disk_cache + base_pos, &share->base);
share->state.state_length=base_pos;
if (!(open_flags & HA_OPEN_FOR_REPAIR) &&
((share->state.changed & STATE_CRASHED) ||
((open_flags & HA_OPEN_ABORT_IF_CRASHED) &&
(my_disable_locking && share->state.open_count))))
{
DBUG_PRINT("error",("Table is marked as crashed. open_flags: %u "
"changed: %u open_count: %u !locking: %d",
open_flags, share->state.changed,
share->state.open_count, my_disable_locking));
my_errno=((share->state.changed & STATE_CRASHED_ON_REPAIR) ?
HA_ERR_CRASHED_ON_REPAIR : HA_ERR_CRASHED_ON_USAGE);
goto err;
}
/* sanity check */
if (share->base.keystart > 65535 || share->base.rec_reflength > 8)
{
my_errno=HA_ERR_CRASHED;
goto err;
}
key_parts+=fulltext_keys*FT_SEGS;
if (share->base.max_key_length > MI_MAX_KEY_BUFF || keys > MI_MAX_KEY ||
key_parts > MI_MAX_KEY * MI_MAX_KEY_SEG)
{
DBUG_PRINT("error",("Wrong key info: Max_key_length: %d keys: %d key_parts: %d", share->base.max_key_length, keys, key_parts));
my_errno=HA_ERR_UNSUPPORTED;
goto err;
}
/* Correct max_file_length based on length of sizeof(off_t) */
max_data_file_length=
(share->options & (HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD)) ?
(((ulonglong) 1 << (share->base.rec_reflength*8))-1) :
(mi_safe_mul(share->base.pack_reclength,
(ulonglong) 1 << (share->base.rec_reflength*8))-1);
max_key_file_length=
mi_safe_mul(MI_MIN_KEY_BLOCK_LENGTH,
((ulonglong) 1 << (share->base.key_reflength*8))-1);
#if SIZEOF_OFF_T == 4
set_if_smaller(max_data_file_length, INT_MAX32);
set_if_smaller(max_key_file_length, INT_MAX32);
#endif
#if USE_RAID && SYSTEM_SIZEOF_OFF_T == 4
set_if_smaller(max_key_file_length, INT_MAX32);
if (!share->base.raid_type)
{
set_if_smaller(max_data_file_length, INT_MAX32);
}
else
{
set_if_smaller(max_data_file_length,
(ulonglong) share->base.raid_chunks << 31);
}
#elif !defined(USE_RAID)
if (share->base.raid_type)
{
DBUG_PRINT("error",("Table uses RAID but we don't have RAID support"));
my_errno=HA_ERR_UNSUPPORTED;
goto err;
}
#endif
share->base.max_data_file_length=(my_off_t) max_data_file_length;
share->base.max_key_file_length=(my_off_t) max_key_file_length;
if (share->options & HA_OPTION_COMPRESS_RECORD)
share->base.max_key_length+=2; /* For safety */
if (!my_multi_malloc(MY_WME,
&share,sizeof(*share),
&share->state.rec_per_key_part,sizeof(long)*key_parts,
&share->keyinfo,keys*sizeof(MI_KEYDEF),
&share->uniqueinfo,uniques*sizeof(MI_UNIQUEDEF),
&share->keyparts,
(key_parts+unique_key_parts+keys+uniques) *
sizeof(HA_KEYSEG),
&share->rec,
(share->base.fields+1)*sizeof(MI_COLUMNDEF),
&share->blobs,sizeof(MI_BLOB)*share->base.blobs,
&share->unique_file_name,strlen(name_buff)+1,
&share->index_file_name,strlen(index_name)+1,
&share->data_file_name,strlen(data_name)+1,
&share->state.key_root,keys*sizeof(my_off_t),
&share->state.key_del,
(share->state.header.max_block_size_index*sizeof(my_off_t)),
#ifdef THREAD
&share->key_root_lock,sizeof(rw_lock_t)*keys,
#endif
&share->mmap_lock,sizeof(rw_lock_t),
NullS))
goto err;
errpos=4;
*share=share_buff;
memcpy((char*) share->state.rec_per_key_part,
(char*) rec_per_key_part, sizeof(long)*key_parts);
memcpy((char*) share->state.key_root,
(char*) key_root, sizeof(my_off_t)*keys);
memcpy((char*) share->state.key_del,
(char*) key_del, (sizeof(my_off_t) *
share->state.header.max_block_size_index));
strmov(share->unique_file_name, name_buff);
share->unique_name_length= strlen(name_buff);
strmov(share->index_file_name, index_name);
strmov(share->data_file_name, data_name);
share->blocksize=min(IO_SIZE,myisam_block_size);
{
HA_KEYSEG *pos=share->keyparts;
for (i=0 ; i < keys ; i++)
{
share->keyinfo[i].share= share;
disk_pos=mi_keydef_read(disk_pos, &share->keyinfo[i]);
disk_pos_assert(disk_pos + share->keyinfo[i].keysegs * HA_KEYSEG_SIZE,
end_pos);
if (share->keyinfo[i].key_alg == HA_KEY_ALG_RTREE)
have_rtree=1;
set_if_smaller(share->blocksize,share->keyinfo[i].block_length);
share->keyinfo[i].seg=pos;
for (j=0 ; j < share->keyinfo[i].keysegs; j++,pos++)
{
disk_pos=mi_keyseg_read(disk_pos, pos);
if (pos->flag & HA_BLOB_PART &&
! (share->options & (HA_OPTION_COMPRESS_RECORD |
HA_OPTION_PACK_RECORD)))
{
my_errno= HA_ERR_CRASHED;
goto err;
}
if (pos->type == HA_KEYTYPE_TEXT ||
pos->type == HA_KEYTYPE_VARTEXT1 ||
pos->type == HA_KEYTYPE_VARTEXT2)
{
if (!pos->language)
pos->charset=default_charset_info;
else if (!(pos->charset= get_charset(pos->language, MYF(MY_WME))))
{
my_errno=HA_ERR_UNKNOWN_CHARSET;
goto err;
}
}
else if (pos->type == HA_KEYTYPE_BINARY)
pos->charset= &my_charset_bin;
}
if (share->keyinfo[i].flag & HA_SPATIAL)
{
#ifdef HAVE_SPATIAL
uint sp_segs=SPDIMS*2;
share->keyinfo[i].seg=pos-sp_segs;
share->keyinfo[i].keysegs--;
#else
my_errno=HA_ERR_UNSUPPORTED;
goto err;
#endif
}
else if (share->keyinfo[i].flag & HA_FULLTEXT)
{
if (!fulltext_keys)
{ /* 4.0 compatibility code, to be removed in 5.0 */
share->keyinfo[i].seg=pos-FT_SEGS;
share->keyinfo[i].keysegs-=FT_SEGS;
}
else
{
uint k;
share->keyinfo[i].seg=pos;
for (k=0; k < FT_SEGS; k++)
{
*pos= ft_keysegs[k];
pos[0].language= pos[-1].language;
if (!(pos[0].charset= pos[-1].charset))
{
my_errno=HA_ERR_CRASHED;
goto err;
}
pos++;
}
}
if (!share->ft2_keyinfo.seg)
{
memcpy(& share->ft2_keyinfo, & share->keyinfo[i], sizeof(MI_KEYDEF));
share->ft2_keyinfo.keysegs=1;
share->ft2_keyinfo.flag=0;
share->ft2_keyinfo.keylength=
share->ft2_keyinfo.minlength=
share->ft2_keyinfo.maxlength=HA_FT_WLEN+share->base.rec_reflength;
share->ft2_keyinfo.seg=pos-1;
share->ft2_keyinfo.end=pos;
setup_key_functions(& share->ft2_keyinfo);
}
}
setup_key_functions(share->keyinfo+i);
share->keyinfo[i].end=pos;
pos->type=HA_KEYTYPE_END; /* End */
pos->length=share->base.rec_reflength;
pos->null_bit=0;
pos->flag=0; /* For purify */
pos++;
}
for (i=0 ; i < uniques ; i++)
{
disk_pos=mi_uniquedef_read(disk_pos, &share->uniqueinfo[i]);
disk_pos_assert(disk_pos + share->uniqueinfo[i].keysegs *
HA_KEYSEG_SIZE, end_pos);
share->uniqueinfo[i].seg=pos;
for (j=0 ; j < share->uniqueinfo[i].keysegs; j++,pos++)
{
disk_pos=mi_keyseg_read(disk_pos, pos);
if (pos->type == HA_KEYTYPE_TEXT ||
pos->type == HA_KEYTYPE_VARTEXT1 ||
pos->type == HA_KEYTYPE_VARTEXT2)
{
if (!pos->language)
pos->charset=default_charset_info;
else if (!(pos->charset= get_charset(pos->language, MYF(MY_WME))))
{
my_errno=HA_ERR_UNKNOWN_CHARSET;
goto err;
}
}
}
share->uniqueinfo[i].end=pos;
pos->type=HA_KEYTYPE_END; /* End */
pos->null_bit=0;
pos->flag=0;
pos++;
}
share->ftparsers= 0;
}
disk_pos_assert(disk_pos + share->base.fields *MI_COLUMNDEF_SIZE, end_pos);
for (i=j=offset=0 ; i < share->base.fields ; i++)
{
disk_pos=mi_recinfo_read(disk_pos,&share->rec[i]);
share->rec[i].pack_type=0;
share->rec[i].huff_tree=0;
share->rec[i].offset=offset;
if (share->rec[i].type == (int) FIELD_BLOB)
{
share->blobs[j].pack_length=
share->rec[i].length-portable_sizeof_char_ptr;
share->blobs[j].offset=offset;
j++;
}
offset+=share->rec[i].length;
}
share->rec[i].type=(int) FIELD_LAST; /* End marker */
if (offset > share->base.reclength)
{
/* purecov: begin inspected */
my_errno= HA_ERR_CRASHED;
goto err;
/* purecov: end */
}
if (! lock_error)
{
VOID(my_lock(kfile,F_UNLCK,0L,F_TO_EOF,MYF(MY_SEEK_NOT_DONE)));
lock_error=1; /* Database unlocked */
}
if (mi_open_datafile(&info, share, -1))
goto err;
errpos=5;
share->kfile=kfile;
share->this_process=(ulong) getpid();
share->last_process= share->state.process;
share->base.key_parts=key_parts;
share->base.all_key_parts=key_parts+unique_key_parts;
if (!(share->last_version=share->state.version))
share->last_version=1; /* Safety */
share->rec_reflength=share->base.rec_reflength; /* May be changed */
share->base.margin_key_file_length=(share->base.max_key_file_length -
(keys ? MI_INDEX_BLOCK_MARGIN *
share->blocksize * keys : 0));
share->blocksize=min(IO_SIZE,myisam_block_size);
share->data_file_type=STATIC_RECORD;
if (share->options & HA_OPTION_COMPRESS_RECORD)
{
share->data_file_type = COMPRESSED_RECORD;
share->options|= HA_OPTION_READ_ONLY_DATA;
info.s=share;
if (_mi_read_pack_info(&info,
(pbool)
test(!(share->options &
(HA_OPTION_PACK_RECORD |
HA_OPTION_TEMP_COMPRESS_RECORD)))))
goto err;
}
else if (share->options & HA_OPTION_PACK_RECORD)
share->data_file_type = DYNAMIC_RECORD;
my_afree(disk_cache);
mi_setup_functions(share);
share->is_log_table= FALSE;
#ifdef THREAD
thr_lock_init(&share->lock);
VOID(pthread_mutex_init(&share->intern_lock,MY_MUTEX_INIT_FAST));
for (i=0; i<keys; i++)
VOID(my_rwlock_init(&share->key_root_lock[i], NULL));
VOID(my_rwlock_init(&share->mmap_lock, NULL));
if (!thr_lock_inited)
{
/* Probably a single threaded program; Don't use concurrent inserts */
myisam_concurrent_insert=0;
}
else if (myisam_concurrent_insert)
{
share->concurrent_insert=
((share->options & (HA_OPTION_READ_ONLY_DATA | HA_OPTION_TMP_TABLE |
HA_OPTION_COMPRESS_RECORD |
HA_OPTION_TEMP_COMPRESS_RECORD)) ||
(open_flags & HA_OPEN_TMP_TABLE) ||
have_rtree) ? 0 : 1;
if (share->concurrent_insert)
{
share->lock.get_status=mi_get_status;
share->lock.copy_status=mi_copy_status;
share->lock.update_status=mi_update_status;
share->lock.restore_status= mi_restore_status;
share->lock.check_status=mi_check_status;
}
}
#endif
/*
Memory mapping can only be requested after initializing intern_lock.
*/
if (open_flags & HA_OPEN_MMAP)
{
info.s= share;
mi_extra(&info, HA_EXTRA_MMAP, 0);
}
}
else
{
share= old_info->s;
if (mode == O_RDWR && share->mode == O_RDONLY)
{
my_errno=EACCES; /* Can't open in write mode */
goto err;
}
if (mi_open_datafile(&info, share, old_info->dfile))
goto err;
errpos=5;
have_rtree= old_info->rtree_recursion_state != NULL;
}
/* alloc and set up private structure parts */
if (!my_multi_malloc(MY_WME,
&m_info,sizeof(MI_INFO),
&info.blobs,sizeof(MI_BLOB)*share->base.blobs,
&info.buff,(share->base.max_key_block_length*2+
share->base.max_key_length),
&info.lastkey,share->base.max_key_length*3+1,
&info.first_mbr_key, share->base.max_key_length,
&info.filename,strlen(name)+1,
&info.rtree_recursion_state,have_rtree ? 1024 : 0,
NullS))
goto err;
errpos=6;
if (!have_rtree)
info.rtree_recursion_state= NULL;
strmov(info.filename,name);
memcpy(info.blobs,share->blobs,sizeof(MI_BLOB)*share->base.blobs);
info.lastkey2=info.lastkey+share->base.max_key_length;
info.s=share;
info.lastpos= HA_OFFSET_ERROR;
info.update= (short) (HA_STATE_NEXT_FOUND+HA_STATE_PREV_FOUND);
info.opt_flag=READ_CHECK_USED;
info.this_unique= (ulong) info.dfile; /* Uniq number in process */
if (share->data_file_type == COMPRESSED_RECORD)
info.this_unique= share->state.unique;
info.this_loop=0; /* Update counter */
info.last_unique= share->state.unique;
info.last_loop= share->state.update_count;
if (mode == O_RDONLY)
share->options|=HA_OPTION_READ_ONLY_DATA;
info.lock_type=F_UNLCK;
info.quick_mode=0;
info.bulk_insert=0;
info.ft1_to_ft2=0;
info.errkey= -1;
info.page_changed=1;
pthread_mutex_lock(&share->intern_lock);
info.read_record=share->read_record;
share->reopen++;
share->write_flag=MYF(MY_NABP | MY_WAIT_IF_FULL);
if (share->options & HA_OPTION_READ_ONLY_DATA)
{
info.lock_type=F_RDLCK;
share->r_locks++;
share->tot_locks++;
}
if ((open_flags & HA_OPEN_TMP_TABLE) ||
(share->options & HA_OPTION_TMP_TABLE))
{
share->temporary=share->delay_key_write=1;
share->write_flag=MYF(MY_NABP);
share->w_locks++; /* We don't have to update status */
share->tot_locks++;
info.lock_type=F_WRLCK;
}
if (((open_flags & HA_OPEN_DELAY_KEY_WRITE) ||
(share->options & HA_OPTION_DELAY_KEY_WRITE)) &&
myisam_delay_key_write)
share->delay_key_write=1;
info.state= &share->state.state; /* Change global values by default */
pthread_mutex_unlock(&share->intern_lock);
/* Allocate buffer for one record */
/* prerequisites: bzero(info) && info->s=share; are met. */
if (!mi_alloc_rec_buff(&info, -1, &info.rec_buff))
goto err;
bzero(info.rec_buff, mi_get_rec_buff_len(&info, info.rec_buff));
*m_info=info;
#ifdef THREAD
thr_lock_data_init(&share->lock,&m_info->lock,(void*) m_info);
#endif
m_info->open_list.data=(void*) m_info;
myisam_open_list=list_add(myisam_open_list,&m_info->open_list);
pthread_mutex_unlock(&THR_LOCK_myisam);
if (myisam_log_file >= 0)
{
intern_filename(name_buff,share->index_file_name);
_myisam_log(MI_LOG_OPEN, m_info, (uchar*) name_buff, strlen(name_buff));
}
DBUG_RETURN(m_info);
err:
save_errno=my_errno ? my_errno : HA_ERR_END_OF_FILE;
if ((save_errno == HA_ERR_CRASHED) ||
(save_errno == HA_ERR_CRASHED_ON_USAGE) ||
(save_errno == HA_ERR_CRASHED_ON_REPAIR))
mi_report_error(save_errno, name);
switch (errpos) {
case 6:
my_free((uchar*) m_info,MYF(0));
/* fall through */
case 5:
VOID(my_close(info.dfile,MYF(0)));
if (old_info)
break; /* Don't remove open table */
/* fall through */
case 4:
my_free((uchar*) share,MYF(0));
/* fall through */
case 3:
if (! lock_error)
VOID(my_lock(kfile, F_UNLCK, 0L, F_TO_EOF, MYF(MY_SEEK_NOT_DONE)));
/* fall through */
case 2:
my_afree(disk_cache);
/* fall through */
case 1:
VOID(my_close(kfile,MYF(0)));
/* fall through */
case 0:
default:
break;
}
pthread_mutex_unlock(&THR_LOCK_myisam);
my_errno=save_errno;
DBUG_RETURN (NULL);
} /* mi_open */
uchar *mi_alloc_rec_buff(MI_INFO *info, ulong length, uchar **buf)
{
uint extra;
uint32 old_length;
LINT_INIT(old_length);
if (! *buf || length > (old_length=mi_get_rec_buff_len(info, *buf)))
{
uchar *newptr = *buf;
/* to simplify initial init of info->rec_buf in mi_open and mi_extra */
if (length == (ulong) -1)
{
length= max(info->s->base.pack_reclength,
info->s->base.max_key_length);
/* Avoid unnecessary realloc */
if (newptr && length == old_length)
return newptr;
}
extra= ((info->s->options & HA_OPTION_PACK_RECORD) ?
ALIGN_SIZE(MI_MAX_DYN_BLOCK_HEADER)+MI_SPLIT_LENGTH+
MI_REC_BUFF_OFFSET : 0);
if (extra && newptr)
newptr-= MI_REC_BUFF_OFFSET;
if (!(newptr=(uchar*) my_realloc((uchar*)newptr, length+extra+8,
MYF(MY_ALLOW_ZERO_PTR))))
return newptr;
*((uint32 *) newptr)= (uint32) length;
*buf= newptr+(extra ? MI_REC_BUFF_OFFSET : 0);
}
return *buf;
}
ulonglong mi_safe_mul(ulonglong a, ulonglong b)
{
ulonglong max_val= ~ (ulonglong) 0; /* my_off_t is unsigned */
if (!a || max_val / a < b)
return max_val;
return a*b;
}
/* Set up functions in structs */
void mi_setup_functions(register MYISAM_SHARE *share)
{
if (share->options & HA_OPTION_COMPRESS_RECORD)
{
share->read_record=_mi_read_pack_record;
share->read_rnd=_mi_read_rnd_pack_record;
if (!(share->options & HA_OPTION_TEMP_COMPRESS_RECORD))
share->calc_checksum=0; /* No checksum */
else if (share->options & HA_OPTION_PACK_RECORD)
share->calc_checksum= mi_checksum;
else
share->calc_checksum= mi_static_checksum;
}
else if (share->options & HA_OPTION_PACK_RECORD)
{
share->read_record=_mi_read_dynamic_record;
share->read_rnd=_mi_read_rnd_dynamic_record;
share->delete_record=_mi_delete_dynamic_record;
share->compare_record=_mi_cmp_dynamic_record;
share->compare_unique=_mi_cmp_dynamic_unique;
share->calc_checksum= mi_checksum;
/* add bits used to pack data to pack_reclength for faster allocation */
share->base.pack_reclength+= share->base.pack_bits;
if (share->base.blobs)
{
share->update_record=_mi_update_blob_record;
share->write_record=_mi_write_blob_record;
}
else
{
share->write_record=_mi_write_dynamic_record;
share->update_record=_mi_update_dynamic_record;
}
}
else
{
share->read_record=_mi_read_static_record;
share->read_rnd=_mi_read_rnd_static_record;
share->delete_record=_mi_delete_static_record;
share->compare_record=_mi_cmp_static_record;
share->update_record=_mi_update_static_record;
share->write_record=_mi_write_static_record;
share->compare_unique=_mi_cmp_static_unique;
share->calc_checksum= mi_static_checksum;
}
share->file_read= mi_nommap_pread;
share->file_write= mi_nommap_pwrite;
if (!(share->options & HA_OPTION_CHECKSUM))
share->calc_checksum=0;
return;
}
static void setup_key_functions(register MI_KEYDEF *keyinfo)
{
if (keyinfo->key_alg == HA_KEY_ALG_RTREE)
{
#ifdef HAVE_RTREE_KEYS
keyinfo->ck_insert = rtree_insert;
keyinfo->ck_delete = rtree_delete;
#else
DBUG_ASSERT(0); /* mi_open should check it never happens */
#endif
}
else
{
keyinfo->ck_insert = _mi_ck_write;
keyinfo->ck_delete = _mi_ck_delete;
}
if (keyinfo->flag & HA_BINARY_PACK_KEY)
{ /* Simple prefix compression */
keyinfo->bin_search=_mi_seq_search;
keyinfo->get_key=_mi_get_binary_pack_key;
keyinfo->pack_key=_mi_calc_bin_pack_key_length;
keyinfo->store_key=_mi_store_bin_pack_key;
}
else if (keyinfo->flag & HA_VAR_LENGTH_KEY)
{
keyinfo->get_key= _mi_get_pack_key;
if (keyinfo->seg[0].flag & HA_PACK_KEY)
{ /* Prefix compression */
if (!keyinfo->seg->charset || use_strnxfrm(keyinfo->seg->charset) ||
(keyinfo->seg->flag & HA_NULL_PART))
keyinfo->bin_search=_mi_seq_search;
else
keyinfo->bin_search=_mi_prefix_search;
keyinfo->pack_key=_mi_calc_var_pack_key_length;
keyinfo->store_key=_mi_store_var_pack_key;
}
else
{
keyinfo->bin_search=_mi_seq_search;
keyinfo->pack_key=_mi_calc_var_key_length; /* Variable length key */
keyinfo->store_key=_mi_store_static_key;
}
}
else
{
keyinfo->bin_search=_mi_bin_search;
keyinfo->get_key=_mi_get_static_key;
keyinfo->pack_key=_mi_calc_static_key_length;
keyinfo->store_key=_mi_store_static_key;
}
return;
}
/*
Function to save and store the header in the index file (.MYI)
*/
uint mi_state_info_write(File file, MI_STATE_INFO *state, uint pWrite)
{
uchar buff[MI_STATE_INFO_SIZE + MI_STATE_EXTRA_SIZE];
uchar *ptr=buff;
uint i, keys= (uint) state->header.keys,
key_blocks=state->header.max_block_size_index;
DBUG_ENTER("mi_state_info_write");
memcpy_fixed(ptr,&state->header,sizeof(state->header));
ptr+=sizeof(state->header);
/* open_count must be first because of _mi_mark_file_changed ! */
mi_int2store(ptr,state->open_count); ptr +=2;
*ptr++= (uchar)state->changed; *ptr++= state->sortkey;
mi_rowstore(ptr,state->state.records); ptr +=8;
mi_rowstore(ptr,state->state.del); ptr +=8;
mi_rowstore(ptr,state->split); ptr +=8;
mi_sizestore(ptr,state->dellink); ptr +=8;
mi_sizestore(ptr,state->state.key_file_length); ptr +=8;
mi_sizestore(ptr,state->state.data_file_length); ptr +=8;
mi_sizestore(ptr,state->state.empty); ptr +=8;
mi_sizestore(ptr,state->state.key_empty); ptr +=8;
mi_int8store(ptr,state->auto_increment); ptr +=8;
mi_int8store(ptr,(ulonglong) state->state.checksum);ptr +=8;
mi_int4store(ptr,state->process); ptr +=4;
mi_int4store(ptr,state->unique); ptr +=4;
mi_int4store(ptr,state->status); ptr +=4;
mi_int4store(ptr,state->update_count); ptr +=4;
ptr+=state->state_diff_length;
for (i=0; i < keys; i++)
{
mi_sizestore(ptr,state->key_root[i]); ptr +=8;
}
for (i=0; i < key_blocks; i++)
{
mi_sizestore(ptr,state->key_del[i]); ptr +=8;
}
if (pWrite & 2) /* From isamchk */
{
uint key_parts= mi_uint2korr(state->header.key_parts);
mi_int4store(ptr,state->sec_index_changed); ptr +=4;
mi_int4store(ptr,state->sec_index_used); ptr +=4;
mi_int4store(ptr,state->version); ptr +=4;
mi_int8store(ptr,state->key_map); ptr +=8;
mi_int8store(ptr,(ulonglong) state->create_time); ptr +=8;
mi_int8store(ptr,(ulonglong) state->recover_time); ptr +=8;
mi_int8store(ptr,(ulonglong) state->check_time); ptr +=8;
mi_sizestore(ptr,state->rec_per_key_rows); ptr+=8;
for (i=0 ; i < key_parts ; i++)
{
mi_int4store(ptr,state->rec_per_key_part[i]); ptr+=4;
}
}
if (pWrite & 1)
DBUG_RETURN(my_pwrite(file, buff, (size_t) (ptr-buff), 0L,
MYF(MY_NABP | MY_THREADSAFE)) != 0);
DBUG_RETURN(my_write(file, buff, (size_t) (ptr-buff),
MYF(MY_NABP)) != 0);
}
uchar *mi_state_info_read(uchar *ptr, MI_STATE_INFO *state)
{
uint i,keys,key_parts,key_blocks;
memcpy_fixed(&state->header,ptr, sizeof(state->header));
ptr +=sizeof(state->header);
keys=(uint) state->header.keys;
key_parts=mi_uint2korr(state->header.key_parts);
key_blocks=state->header.max_block_size_index;
state->open_count = mi_uint2korr(ptr); ptr +=2;
state->changed= (bool) *ptr++;
state->sortkey = (uint) *ptr++;
state->state.records= mi_rowkorr(ptr); ptr +=8;
state->state.del = mi_rowkorr(ptr); ptr +=8;
state->split = mi_rowkorr(ptr); ptr +=8;
state->dellink= mi_sizekorr(ptr); ptr +=8;
state->state.key_file_length = mi_sizekorr(ptr); ptr +=8;
state->state.data_file_length= mi_sizekorr(ptr); ptr +=8;
state->state.empty = mi_sizekorr(ptr); ptr +=8;
state->state.key_empty= mi_sizekorr(ptr); ptr +=8;
state->auto_increment=mi_uint8korr(ptr); ptr +=8;
state->state.checksum=(ha_checksum) mi_uint8korr(ptr); ptr +=8;
state->process= mi_uint4korr(ptr); ptr +=4;
state->unique = mi_uint4korr(ptr); ptr +=4;
state->status = mi_uint4korr(ptr); ptr +=4;
state->update_count=mi_uint4korr(ptr); ptr +=4;
ptr+= state->state_diff_length;
for (i=0; i < keys; i++)
{
state->key_root[i]= mi_sizekorr(ptr); ptr +=8;
}
for (i=0; i < key_blocks; i++)
{
state->key_del[i] = mi_sizekorr(ptr); ptr +=8;
}
state->sec_index_changed = mi_uint4korr(ptr); ptr +=4;
state->sec_index_used = mi_uint4korr(ptr); ptr +=4;
state->version = mi_uint4korr(ptr); ptr +=4;
state->key_map = mi_uint8korr(ptr); ptr +=8;
state->create_time = (time_t) mi_sizekorr(ptr); ptr +=8;
state->recover_time =(time_t) mi_sizekorr(ptr); ptr +=8;
state->check_time = (time_t) mi_sizekorr(ptr); ptr +=8;
state->rec_per_key_rows=mi_sizekorr(ptr); ptr +=8;
for (i=0 ; i < key_parts ; i++)
{
state->rec_per_key_part[i]= mi_uint4korr(ptr); ptr+=4;
}
return ptr;
}
uint mi_state_info_read_dsk(File file, MI_STATE_INFO *state, my_bool pRead)
{
uchar buff[MI_STATE_INFO_SIZE + MI_STATE_EXTRA_SIZE];
if (!myisam_single_user)
{
if (pRead)
{
if (my_pread(file, buff, state->state_length,0L, MYF(MY_NABP)))
return 1;
}
else if (my_read(file, buff, state->state_length,MYF(MY_NABP)))
return 1;
mi_state_info_read(buff, state);
}
return 0;
}
/****************************************************************************
** store and read of MI_BASE_INFO
****************************************************************************/
uint mi_base_info_write(File file, MI_BASE_INFO *base)
{
uchar buff[MI_BASE_INFO_SIZE], *ptr=buff;
mi_sizestore(ptr,base->keystart); ptr +=8;
mi_sizestore(ptr,base->max_data_file_length); ptr +=8;
mi_sizestore(ptr,base->max_key_file_length); ptr +=8;
mi_rowstore(ptr,base->records); ptr +=8;
mi_rowstore(ptr,base->reloc); ptr +=8;
mi_int4store(ptr,base->mean_row_length); ptr +=4;
mi_int4store(ptr,base->reclength); ptr +=4;
mi_int4store(ptr,base->pack_reclength); ptr +=4;
mi_int4store(ptr,base->min_pack_length); ptr +=4;
mi_int4store(ptr,base->max_pack_length); ptr +=4;
mi_int4store(ptr,base->min_block_length); ptr +=4;
mi_int4store(ptr,base->fields); ptr +=4;
mi_int4store(ptr,base->pack_fields); ptr +=4;
*ptr++=base->rec_reflength;
*ptr++=base->key_reflength;
*ptr++=base->keys;
*ptr++=base->auto_key;
mi_int2store(ptr,base->pack_bits); ptr +=2;
mi_int2store(ptr,base->blobs); ptr +=2;
mi_int2store(ptr,base->max_key_block_length); ptr +=2;
mi_int2store(ptr,base->max_key_length); ptr +=2;
mi_int2store(ptr,base->extra_alloc_bytes); ptr +=2;
*ptr++= base->extra_alloc_procent;
*ptr++= base->raid_type;
mi_int2store(ptr,base->raid_chunks); ptr +=2;
mi_int4store(ptr,base->raid_chunksize); ptr +=4;
bzero(ptr,6); ptr +=6; /* extra */
return my_write(file, buff, (size_t) (ptr-buff), MYF(MY_NABP)) != 0;
}
uchar *my_n_base_info_read(uchar *ptr, MI_BASE_INFO *base)
{
base->keystart = mi_sizekorr(ptr); ptr +=8;
base->max_data_file_length = mi_sizekorr(ptr); ptr +=8;
base->max_key_file_length = mi_sizekorr(ptr); ptr +=8;
base->records = (ha_rows) mi_sizekorr(ptr); ptr +=8;
base->reloc = (ha_rows) mi_sizekorr(ptr); ptr +=8;
base->mean_row_length = mi_uint4korr(ptr); ptr +=4;
base->reclength = mi_uint4korr(ptr); ptr +=4;
base->pack_reclength = mi_uint4korr(ptr); ptr +=4;
base->min_pack_length = mi_uint4korr(ptr); ptr +=4;
base->max_pack_length = mi_uint4korr(ptr); ptr +=4;
base->min_block_length = mi_uint4korr(ptr); ptr +=4;
base->fields = mi_uint4korr(ptr); ptr +=4;
base->pack_fields = mi_uint4korr(ptr); ptr +=4;
base->rec_reflength = *ptr++;
base->key_reflength = *ptr++;
base->keys= *ptr++;
base->auto_key= *ptr++;
base->pack_bits = mi_uint2korr(ptr); ptr +=2;
base->blobs = mi_uint2korr(ptr); ptr +=2;
base->max_key_block_length= mi_uint2korr(ptr); ptr +=2;
base->max_key_length = mi_uint2korr(ptr); ptr +=2;
base->extra_alloc_bytes = mi_uint2korr(ptr); ptr +=2;
base->extra_alloc_procent = *ptr++;
base->raid_type= *ptr++;
base->raid_chunks= mi_uint2korr(ptr); ptr +=2;
base->raid_chunksize= mi_uint4korr(ptr); ptr +=4;
/* TO BE REMOVED: Fix for old RAID files */
if (base->raid_type == 0)
{
base->raid_chunks=0;
base->raid_chunksize=0;
}
ptr+=6;
return ptr;
}
/*--------------------------------------------------------------------------
mi_keydef
---------------------------------------------------------------------------*/
uint mi_keydef_write(File file, MI_KEYDEF *keydef)
{
uchar buff[MI_KEYDEF_SIZE];
uchar *ptr=buff;
*ptr++ = (uchar) keydef->keysegs;
*ptr++ = keydef->key_alg; /* Rtree or Btree */
mi_int2store(ptr,keydef->flag); ptr +=2;
mi_int2store(ptr,keydef->block_length); ptr +=2;
mi_int2store(ptr,keydef->keylength); ptr +=2;
mi_int2store(ptr,keydef->minlength); ptr +=2;
mi_int2store(ptr,keydef->maxlength); ptr +=2;
return my_write(file, buff, (size_t) (ptr-buff), MYF(MY_NABP)) != 0;
}
uchar *mi_keydef_read(uchar *ptr, MI_KEYDEF *keydef)
{
keydef->keysegs = (uint) *ptr++;
keydef->key_alg = *ptr++; /* Rtree or Btree */
keydef->flag = mi_uint2korr(ptr); ptr +=2;
keydef->block_length = mi_uint2korr(ptr); ptr +=2;
keydef->keylength = mi_uint2korr(ptr); ptr +=2;
keydef->minlength = mi_uint2korr(ptr); ptr +=2;
keydef->maxlength = mi_uint2korr(ptr); ptr +=2;
keydef->block_size_index= keydef->block_length/MI_MIN_KEY_BLOCK_LENGTH-1;
keydef->underflow_block_length=keydef->block_length/3;
keydef->version = 0; /* Not saved */
keydef->parser = &ft_default_parser;
keydef->ftparser_nr = 0;
return ptr;
}
/***************************************************************************
** mi_keyseg
***************************************************************************/
int mi_keyseg_write(File file, const HA_KEYSEG *keyseg)
{
uchar buff[HA_KEYSEG_SIZE];
uchar *ptr=buff;
ulong pos;
*ptr++= keyseg->type;
*ptr++= keyseg->language;
*ptr++= keyseg->null_bit;
*ptr++= keyseg->bit_start;
*ptr++= keyseg->bit_end;
*ptr++= keyseg->bit_length;
mi_int2store(ptr,keyseg->flag); ptr+=2;
mi_int2store(ptr,keyseg->length); ptr+=2;
mi_int4store(ptr,keyseg->start); ptr+=4;
pos= keyseg->null_bit ? keyseg->null_pos : keyseg->bit_pos;
mi_int4store(ptr, pos);
ptr+=4;
return my_write(file, buff, (size_t) (ptr-buff), MYF(MY_NABP)) != 0;
}
uchar *mi_keyseg_read(uchar *ptr, HA_KEYSEG *keyseg)
{
keyseg->type = *ptr++;
keyseg->language = *ptr++;
keyseg->null_bit = *ptr++;
keyseg->bit_start = *ptr++;
keyseg->bit_end = *ptr++;
keyseg->bit_length = *ptr++;
keyseg->flag = mi_uint2korr(ptr); ptr +=2;
keyseg->length = mi_uint2korr(ptr); ptr +=2;
keyseg->start = mi_uint4korr(ptr); ptr +=4;
keyseg->null_pos = mi_uint4korr(ptr); ptr +=4;
keyseg->charset=0; /* Will be filled in later */
if (keyseg->null_bit)
keyseg->bit_pos= (uint16)(keyseg->null_pos + (keyseg->null_bit == 7));
else
{
keyseg->bit_pos= (uint16)keyseg->null_pos;
keyseg->null_pos= 0;
}
return ptr;
}
/*--------------------------------------------------------------------------
mi_uniquedef
---------------------------------------------------------------------------*/
uint mi_uniquedef_write(File file, MI_UNIQUEDEF *def)
{
uchar buff[MI_UNIQUEDEF_SIZE];
uchar *ptr=buff;
mi_int2store(ptr,def->keysegs); ptr+=2;
*ptr++= (uchar) def->key;
*ptr++ = (uchar) def->null_are_equal;
return my_write(file, buff, (size_t) (ptr-buff), MYF(MY_NABP)) != 0;
}
uchar *mi_uniquedef_read(uchar *ptr, MI_UNIQUEDEF *def)
{
def->keysegs = mi_uint2korr(ptr);
def->key = ptr[2];
def->null_are_equal=ptr[3];
return ptr+4; /* 1 extra byte */
}
/***************************************************************************
** MI_COLUMNDEF
***************************************************************************/
uint mi_recinfo_write(File file, MI_COLUMNDEF *recinfo)
{
uchar buff[MI_COLUMNDEF_SIZE];
uchar *ptr=buff;
mi_int2store(ptr,recinfo->type); ptr +=2;
mi_int2store(ptr,recinfo->length); ptr +=2;
*ptr++ = recinfo->null_bit;
mi_int2store(ptr,recinfo->null_pos); ptr+= 2;
return my_write(file, buff, (size_t) (ptr-buff), MYF(MY_NABP)) != 0;
}
uchar *mi_recinfo_read(uchar *ptr, MI_COLUMNDEF *recinfo)
{
recinfo->type= mi_sint2korr(ptr); ptr +=2;
recinfo->length=mi_uint2korr(ptr); ptr +=2;
recinfo->null_bit= (uint8) *ptr++;
recinfo->null_pos=mi_uint2korr(ptr); ptr +=2;
return ptr;
}
/**************************************************************************
Open data file with or without RAID
We can't use dup() here as the data file descriptors need to have different
active seek-positions.
The argument file_to_dup is here for the future if there would on some OS
exist a dup()-like call that would give us two different file descriptors.
*************************************************************************/
int mi_open_datafile(MI_INFO *info, MYISAM_SHARE *share,
File file_to_dup __attribute__((unused)))
{
#ifdef USE_RAID
if (share->base.raid_type)
{
info->dfile=my_raid_open(share->data_file_name,
share->mode | O_SHARE,
share->base.raid_type,
share->base.raid_chunks,
share->base.raid_chunksize,
MYF(MY_WME | MY_RAID));
}
else
#endif
info->dfile=my_open(share->data_file_name, share->mode | O_SHARE,
MYF(MY_WME));
return info->dfile >= 0 ? 0 : 1;
}
int mi_open_keyfile(MYISAM_SHARE *share)
{
if ((share->kfile=my_open(share->unique_file_name, share->mode | O_SHARE,
MYF(MY_WME))) < 0)
return 1;
return 0;
}
/*
Disable all indexes.
SYNOPSIS
mi_disable_indexes()
info A pointer to the MyISAM storage engine MI_INFO struct.
DESCRIPTION
Disable all indexes.
RETURN
0 ok
*/
int mi_disable_indexes(MI_INFO *info)
{
MYISAM_SHARE *share= info->s;
mi_clear_all_keys_active(share->state.key_map);
return 0;
}
/*
Enable all indexes
SYNOPSIS
mi_enable_indexes()
info A pointer to the MyISAM storage engine MI_INFO struct.
DESCRIPTION
Enable all indexes. The indexes might have been disabled
by mi_disable_index() before.
The function works only if both data and indexes are empty,
otherwise a repair is required.
To be sure, call handler::delete_all_rows() before.
RETURN
0 ok
HA_ERR_CRASHED data or index is non-empty.
*/
int mi_enable_indexes(MI_INFO *info)
{
int error= 0;
MYISAM_SHARE *share= info->s;
if (share->state.state.data_file_length ||
(share->state.state.key_file_length != share->base.keystart))
{
mi_print_error(info->s, HA_ERR_CRASHED);
error= HA_ERR_CRASHED;
}
else
mi_set_all_keys_active(share->state.key_map, share->base.keys);
return error;
}
/*
Test if indexes are disabled.
SYNOPSIS
mi_indexes_are_disabled()
info A pointer to the MyISAM storage engine MI_INFO struct.
DESCRIPTION
Test if indexes are disabled.
RETURN
0 indexes are not disabled
1 all indexes are disabled
2 non-unique indexes are disabled
*/
int mi_indexes_are_disabled(MI_INFO *info)
{
MYISAM_SHARE *share= info->s;
/*
No keys or all are enabled. keys is the number of keys. Left shifted
gives us only one bit set. When decreased by one, gives us all all bits
up to this one set and it gets unset.
*/
if (!share->base.keys ||
(mi_is_all_keys_active(share->state.key_map, share->base.keys)))
return 0;
/* All are disabled */
if (mi_is_any_key_active(share->state.key_map))
return 1;
/*
We have keys. Some enabled, some disabled.
Don't check for any non-unique disabled but return directly 2
*/
return 2;
}
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